RU169223U1 - DEVICE FOR AUTOMATIC CONTROL OF SUBMOTOR PUMP MOTOR - Google Patents

Abstract

The device relates to the field of automatic control of an electric motor, in particular an electric motor of a submersible pump by means of an electric contact pressure gauge installed on a pipeline supplying water to a water tank. The electric pump is turned on when the contact of the lower pressure level of the electric contact pressure gauge is closed, respectively, when the contact is closed, the contact of the upper pressure level is disconnected. The device contains two voltage comparators. The presence of the first comparator with RC circuits provides protection against false switching on and off of the electric pump when the electric contact pressure gauge is triggered during water hammer. The second voltage comparator with resistors connected in a star circuit performs phase-voltage unbalance monitoring of the supply network, and if the maximum voltage asymmetry is exceeded, it ensures that the pump does not operate in this mode. Also, the second comparator controls the “And” logic element and the upper-level signal delay element work of an electrocontact manometer. In the event of emergency closure of the contacts of the electric pressure gauge or control wires, the second comparator disconnects the electric pump from the network, excluding the operation of the submersible motor in the restart mode. The technical result is an increase in the reliability of the electric motor of the submersible pump and an increase in the resource of its operation. 1 ill.

Description

The invention relates to the field of automatic control of an electric motor, in particular an electric motor of a submersible pump by means of an electric contact pressure gauge installed on a pipeline supplying water to a pressure tank.

The closest in technical essence to the claimed utility model is a device for automatic control of an electric motor of a submersible pump, comprising an electromagnetic starter, a control relay, the make contact of which is connected in series to the power supply circuit of the coil of the magnetic starter, and an electric contact pressure gauge, while the make contacts of the magnetic starter are connected in series between the terminals for connecting the network and terminals for connecting the power of the electric motor of the submersible pump, power supply as part of a step-down voltage transformer, a half-wave diode rectifier, a capacitor, the primary winding of the transformer connected to the terminals for connecting the power source, and the second to the input of the half-wave diode rectifier, the output of which forms the output buses of the power supply to which the capacitor is connected, as well as the comparator voltage with its input resistors and a feedback resistor, resistor voltage dividers, an emitter follower, which are connected to the buses b power supply, two RC circuits, isolation diodes, transistor protection diode and transistor amplifier, while the output of the first resistor voltage divider through the first input resistor of the comparator is connected to the first input of the voltage comparator, and is also connected to the anode of the first and the cathode of the second diodes, each of which is connected to the contacts of the lower and upper pressure levels of the contact manometer, respectively, and the output of the second resistor voltage divider through the second input resistor of the comparator is connected to the second at the input of the voltage comparator and connected to the first output of the feedback resistor of the voltage comparator, the second output of this resistor is connected to the output of the voltage comparator, to which the input resistor of the transistor amplifier and the first conclusions of the resistors of RC circuits are connected, the first of which contains an anode connected to the second output in series the first resistor is a third diode, and the second resistor terminal of the second RC circuit is connected to the cathode of the third diode, as well as to the first capacitor plate and the emitter repeat input a second capacitor, common to both RC circuits, is connected to the first of the power supply buses, the control relay coil shunted by the fourth diode, the first output is connected to the cathode of this diode and the second power supply bus, and the control relay winding is connected to the second output with a collector of a transistor amplifier, the base of which is connected to the second output of the input resistor of the transistor amplifier and the first output of a bias resistor connected to the second output from the emitter of the transistor and the first bus of the power supply, the emitter follower path is connected to the common contact of the electrocontact manometer, and also contains a second voltage comparator with its input resistors, two rectifier diodes connected in series, a second transistor amplifier, a capacitor, a circuit isolation diode, a current limiting resistor, an LED with its current limiting resistor, two voltage dividers, one of which is resistor and the second is resistor-transistor, as well as three star resistors connected according to the circuit, which are connected to the terminals for network disconnection, and the artificial star’s zero point through a current-limiting resistor is connected to a common point of two rectifier diodes connected in series, while the cathode of the first diode is connected to the first bus of the power supply, which is connected to the input resistor of the transistor amplifier, to the cathode of the LED and to the first output of the capacitor, the second terminal of which is connected to the anode of the second diode and the bias resistor of the transistor amplifier, and the collector of the transistor is connected to the second terminal of the resistor of the second divider voltage and through the first input resistor of the second voltage comparator is connected to its first input, and the output of the resistor voltage divider through the second input resistor of the second voltage comparator is connected to its second input, the output of this comparator is connected via a current-limiting resistor to the LED anode and connected to the diode the output of the first resistor voltage divider of the first voltage comparator; the second voltage comparator and its voltage dividers are connected to the buses of the power supply [1].

This device provides reliable shutdown of the submersible pump motor when one or two phases are lost and when the permissible asymmetry of the phase voltage of the electrical network is exceeded.

When the submersible electric pump is switched on, sharp pressure surges occur in the pipeline, and sharp fluctuations of the ECM arrow occur in the electrocontact manometer (ECM), during which the contacts of the upper or lower levels with the contact of the arrow of the ECM can last for a long time. Also, during operation, short circuits in the control wires and connecting terminals of the ECM and the control device are possible. In these cases, an emergency operation of the electric motor occurs, characterized by frequent switching on and off of the electric motor, which leads to overheating of the stator winding by inrush currents and to inter-turn short circuits [2].

The technical result of the utility model is to increase the reliability of the submersible pump electric motor by introducing the protection of the submersible motor from overheating of the stator windings by frequent repeated inrush currents into the automatic control device of the submersible pump electric motor (hereinafter referred to as the device). This will allow you to timely disconnect the motor from the supply network, to prevent the destruction of the phase windings of the stator of the electric motor and thereby increase the reliability of its operation.

The technical result is achieved due to the fact that in the device for automatic control of the electric motor of the submersible pump, containing an electromagnetic starter, a control relay, the make contact of which is connected in series to the power supply circuit of the coil of the magnetic starter, and an electrical contact pressure gauge, while the make contacts of the magnetic starter are connected in series between the terminals for connecting the network and terminals for connecting the power of the electric motor of the submersible pump, the power supply as a part of a pressing voltage transformer, a half-wave diode rectifier, a capacitor, the primary winding of the transformer connected to the terminals for connecting the power source, and the secondary to the input of the half-wave diode rectifier, the output of which forms the output buses of the power supply to which the capacitor is connected; and also containing two voltage comparators with their input resistors, three resistor voltage dividers, a first resistor-transistor voltage divider, an emitter follower that are connected to the busbars of the power supply, two RC circuits, four decoupling diodes, a transistor protection diode, two transistor amplifiers , two rectifier diodes, two capacitors, a feedback resistor, a current-limiting resistor, an LED with its current-limiting resistor, three star-connected resistors that are connected to the terminals for connecting the network, while the output of the first resistor voltage divider through the first input resistor of the voltage comparator is connected to the first input of the first voltage comparator, and is also connected to the anode of the first and cathode of the second diode isolation circuits, each of which is connected to the contacts of the lower and upper pressure levels of the contact manometer, and the output of the second resistor voltage divider through the second input resistor of the voltage comparator is connected to the second input of the first comp voltage regulator and is connected to the first output of the feedback resistor of the first voltage comparator, the second output of this resistor is connected to the output of the first voltage comparator, to which the input resistor of the first transistor amplifier and the first conclusions of the resistors of two RC circuits are connected, the first of which contains an anode connected in series with the second terminal of the first resistor is a third diode, and the second terminal of the resistor of the second RC circuit is connected to the cathode of the third diode, as well as to the first lining of the first capacitor and the input of the emitter follower, and the second lining of this capacitor, common to both RC circuits, is connected to the first of the power supply buses, the control relay winding shunted by the transistor protection diode, the first output is connected to the cathode of this diode and the second power supply bus, and the second output the winding of the control relay is connected to the collector of the first transistor amplifier, the base of which is connected to the second output of the input resistor of this transistor amplifier and the first output of the bias resistor connected to the second output with by the emitter of the transistor and the first bus of the power supply unit, the output of the emitter follower is connected to the common contact of the pressure gauge, the artificial zero point of the star is connected through a current-limiting resistor to the common point of two rectifier diodes connected in series, while the cathode of the first diode is connected to the first bus of the power supply unit, which is connected to the input resistor of the second transistor amplifier, with the cathode of the LED and the first output of the second capacitor, the second output of which is connected to the anode w a rectifier diode and a bias resistor of the second transistor amplifier, and the transistor collector is connected to the second output of the resistor-transistor voltage divider resistor and is connected to its first input through the first input resistor of the second voltage comparator, and the output of the third resistor voltage divider through the second input resistor of the second voltage comparator connected to its second input, the output of this voltage comparator is connected through a current-limiting resistor to the anode of the LED and through The Fourth decoupling diode connected to the output of the first voltage divider resistor, the third capacitor which is connected parallel to the resistor of the first resistor-transistor voltage divider; additionally, an integrated circuit power supply unit, a third transistor amplifier of the second resistor-transistor voltage divider, an “AND” logic element, two signal limiting elements and a high-level signal delay element are connected, connected as follows: the integrated circuit circuit power supply unit is connected to the output buses of the power supply unit control device, one output of the delay element of the upper level signal is connected to the upper level contact of the pressure gauge and the anode of the upper diode about the level, the second output of the upper level signal delay element is connected to the first output of the upper level signal restriction element, the second output of the upper level signal restriction element is connected to one input of the AND logic element, one output of the lower level signal restriction element is connected to the lower level contact of the electrical contact the pressure gauge and the cathode of the lower level diode, the second output of the lower level signal limiting element is connected to another input of the logic element "AND", the output of the logic element "AND "Connected to the first output of the input resistor of the third transistor amplifier, the second output of the input resistor of the third transistor amplifier is connected to the base of the transistor of the same amplifier and to the first output of the bias resistor, the emitter of the transistor of the same amplifier is connected to the second output of the bias resistor and to the first power bus of the control device , the collector of the transistor of the third transistor amplifier is connected to the collector of the transistor of the second transistor amplifier and to the second output of the resistor of the first rubber Thorn transistor a voltage divider and through a first input resistor of the second voltage comparator connected to the first input thereof.

The essence of the utility model is illustrated by Figure 1, which shows an example of a specific implementation of the circuit device for automatic control of the electric motor of a submersible pump.

The device contains a coil of an electromagnetic starter 1 and a three-phase closing contact 2 of a magnetic starter, a control relay winding 3, a closing contact 4 (3) of a control relay 3, a power supply 5 as part of a step-down voltage transformer 6, a half-wave rectifier 7 and a capacitor 8, the output of the rectifier forms the output bus power supply, to which a capacitor is connected 8. The device contains a voltage comparator 9 with input resistors 10 and 11, a feedback resistor 12, resistor voltage dividers formed by pairs resistors 13 and 14, 15 and 16, emitter follower 17, RC circuits 18-19 and 20-19 with diode 21, isolation diodes of control circuits 22 and 23, transistor amplifier 24 with protection on diode 25, with input resistor 26 and resistor bias 27, the contact of the lower level (NU) of pressure 28, the contact of the upper level (VU) of pressure 29, electrical contact pressure gauge 30, electric pump 31.

The device comprises a second voltage comparator 32 with input resistors 33 and 34, a resistor voltage divider formed by resistors 35 and 36, a resistor-transistor voltage divider formed by a resistor 37 and a transistor amplifier 38 including a transistor 39, an input resistor 40, and a bias resistor 41. The device comprises two series-rectifying diodes 42 and 43, a capacitor 44, an isolation diode 45, an LED 46 with its current-limiting resistor 47, and three resistors 48, 49, 50 connected on Wye and connected to the terminals for the network connection.

The terminals of the network A, B, C through the three-phase make-up contacts 2 (1) of the magnetic starter 1 are connected to the terminals for connecting the power of the electric motor of the submersible pump 31. Between phases A and B of the network, which are the conclusions of the power supply circuit of the coil of the magnetic starter 1, a chain of series-connected make contact 4 (3) of the control relay and coil 1 of the magnetic starter, the primary winding of the step-down transformer 6 of the power supply unit 5 is connected to the phase C terminal of the network with one terminal and the neutral terminal N. The secondary winding connected to the input of the diode rectifier 7, the output of which is connected to a capacitor 8. The output buses of the power supply are connected to: the power supply circuit of the integrated circuit 60, voltage comparators 9 and 32 (pins 6 and 11), resistor voltage dividers 13 and 14, 15 and 16 , 35 and 36, the resistor-transistor voltage divider 37 and 38, the emitter follower 17. The output of the resistor voltage divider 13 and 14 through the first input resistor 10 of the comparator 9 is connected to the first input (3) of the comparator 9, and is also connected to the anode of the diode 22, with the cathode of the diode 23, with the cathode d the junction isolation circuit 45, and the cathode of the diode 22 is connected to the lower pressure level pin 28 of the electrical contact pressure gauge 30, and the diode 23 anode is connected to the upper pressure level contact 29 of the electrical contact pressure gauge 30. The output of the resistor voltage divider 15 and 16 through the second input resistor 11 of the voltage comparator 9 connected to the second input (4) of the comparator 9 and connected to the first output of the feedback resistor 12 of the comparator 9, the second output of this resistor is connected to the output (9) of the comparator 9, to which the input resistor 26 tra a resistor amplifier 24 and the first terminals of the resistors 18 and 20 of the RC circuits, the first of which contains a diode 21 connected in series with the second terminal of the resistor 18, and the second terminal of the resistor of the second RC circuit 20 connected to the cathode of the diode 21, as well as with the first capacitor lining 19 and with the input of the emitter follower 17. The second lining of the capacitor 19, common to both RC circuits, is connected to the first of the power supply buses. The winding of the control relay 3, shunted by the diode 25, is connected to the cathode of this diode 25 and the second bus of the power supply unit by the second output, and the winding of the control relay 3 is connected to the collector of the transistor amplifier 24 by the second output. The base of the amplifier 24 is connected to the second output of the input resistor 26 of the transistor amplifier 24 and the first output of the bias resistor 27. The second terminal of the bias resistor 27 is connected to the emitter of the transistor of the amplifier 24 and the first bus of the power supply. The output of the emitter follower 17 is connected to the common arrow of the contact manometer 30. The output of the resistor voltage divider 35 and 36 through the second input resistor 34 of the comparator 32 is connected to the second input (4) of the comparator 32. The output of the resistor-transistor voltage divider 37 and 38 through the first input resistor 33 of the comparator 32 is connected to the first input (3) of the comparator 32. The output (9) of this comparator is connected via a current-limiting resistor 47 to the anode of the LED 46 and through the diode 45 of the isolation circuit with the output of the resistor divider voltages 13 and 14. An artificial zero point N of three resistors 48, 49, 50 connected by a star circuit connected to the terminals for connecting the network, through a current-limiting resistor 51 is connected to the common point of the diodes 42 and 43. The cathode of the diode 42 is connected to the first bus power supply 5, which is connected to the input resistor 40 of the transistor amplifier 38, with the cathode of the LED 46 and the first terminal of the second capacitor 44, the second terminal of which is connected to the anode of the diode 43 and the bias resistor 41 of the transistor amplifier 38. And the resistor 37 is a resistor-transistor The voltage divider 37-38 is shunted by the third capacitor 52.

The device comprises a power supply circuit of the integrated circuit 60, which is connected to the output buses of the power supply unit of the control device, an AND gate 56, one input of which is connected to the output of the upper-level signal limiting element 57, the input of which is connected to the output of the upper-level signal delay element 59 , the input of the delay element of the signal of the upper level 59 is connected to the terminal 29 of the upper level of the electrical pressure gauge and to the anode of the diode 23, the other input of the logical element "And" 56 is connected to the output of the element is limited a signal of the lower level 58, the input of which is connected to the lower level terminal 28 of the electrical pressure gauge and the cathode of the diode 22. The output of the logic element “I” is connected to the first output of the input resistor 55 of the third transistor amplifier 53, the second output of the resistor 55 is connected to the base of the transistor 53 and to the first output of the bias resistor 54 of this transistor, the emitter of the transistor 53 is connected to the second output of the bias resistor 54 and to the first power bus of the control device. The collector of the transistor 53 is connected to the collector of the second amplifying transistor 39 and to the second output of the resistor 37 of the first resistor-transistor voltage divider, and through the first input resistor 33 of the second voltage comparator 32 is connected to its first input (3).

The resistor voltage divider 13 and 14 and the input resistor 10 in their parameters, respectively, are equal to the resistor voltage divider 15 and 16 and the input resistor 11.

When the voltage at the input (3) of the voltage comparator of the applied type (K554CA3 series MC) is greater than the voltage at the input (4), the voltage comparator is disabled, that is, the output signal (pin 9) is zero. And, when the voltage at the input (4) of the voltage comparator is greater than at the input (3), the voltage comparator is turned on, that is, an output signal of positive polarity appears at its output (9) [3].

The device operates as follows.

An electric contact pressure gauge 30 is installed on the pipeline supplying water from the well to the water tank. The voltage from the resistor divider 13, 14 through the diode 22 and the signal limiting element of the lower level 58 is constantly supplied to one of the inputs of the logic element “I” 56. When the pressure is less than the set lower level, the contact of the lower pressure level 28 of the electric contact pressure gauge 30 closes. In this case, the resistor of the emitter follower 17 is connected in parallel with the resistor 14 through the contact 28 and the diode 22 in the resistor voltage divider 17. The voltage at the input (3) of the comparator 9 will decrease, and the comparator will turn on, that is, the output of the comparator 9 will appear (9) positive signal. This leads, when feedback is applied through the resistor 12, to an increase in the voltage at the input (4) of the comparator 9 and to an increase in the difference between the input voltages of the comparator. At the same time, with the comparator 9 turned on, the transistor amplifier 24 opens and the control relay 3 is turned on, the closing contacts 4 (3) of which connect the coil of the magnetic starter 1 to the network (to phases A and B), after which the contacts 2 (1) of the magnetic starter 1 are closed. The mains power is supplied to the electric motor of the electric pump 31, and it starts to work.

Starting from the moment the comparator 9 is turned on, the capacitor 19 is charged in two circuits - through the resistor 18 and the diode 21 connected in series and through the resistor 20. In the process of charging the capacitor 19, the output voltage of the emitter follower 17 will also increase. The time of the full charge of the capacitor 19, which depends from the parameters of the indicated resistors and the capacitor 19, the duration is set obviously greater than the duration of the water hammer caused by the inclusion of an electric pump. In this case, possible short-circuiting of the contact of the upper pressure level 29 with the contact of the arrow of the electrical contact pressure gauge 30 due to the still insufficient voltage from the output of the emitter follower 17 supplied to the input (3) of the comparator 9 does not cause it to turn off. In this case, the delay element 59 does not allow the supply of a higher level signal to another input of the logical element "AND" 56 and does not cause its operation [3].

When the pressure exceeds the set upper level, the contact of the upper pressure level 29 briefly closes with the arrow contact of the electrical contact pressure gauge 30. In this case, the output voltage of the emitter follower 17 through the arrow contact and the upper level contact 29 of the electrical contact pressure gauge 30 is briefly supplied to the delay element of the upper level signal 59 and through diode 23 to the output of the resistor voltage divider formed by a pair of resistors 13 and 14. As a result of the action of the signal delay element 59, the logic element t "I" does not work, and the voltage at the input (3) of the comparator 9 exceeds the voltage at the input (4). The comparator 9 will turn off and a zero signal will be established at its output (9), which will turn off the transistor amplifier 24 of the winding 3 of the control relay.

When the winding 3 of the control relay is disconnected, its contact 4 (3) opens, while the magnetic starter coil 1 is disconnected from the network, its contacts 2 (1) open and the electric pump 31 stops working. After shutting down the pump, water hammering occurs. Simultaneously with the comparator 9 being turned off, the capacitor 19 begins to discharge through the resistor 20, and, therefore, the voltage at the output of the emitter follower 17 decreases. The duration of the discharge time, which depends on the resistance parameters of the resistor 20 and the capacitor 19, is set to be known to be longer than the duration of the water hammer.

Since the signal at the output of the emitter follower 17 is positive, and the diode 22 is connected by a cathode to the lower level contact 28, possible closures of the lower pressure level contact 28 of the electric contact pressure gauge 30 will not affect the output voltage of the resistor voltage divider formed by a pair of resistors 13 and 14. By For this reason, the comparator 9 is always in the off state all the time when the capacitor 19 is discharged, and, therefore, the winding 3 of the control relay and the electric pump 31 are excluded.

During the trouble-free operation of the control system as the water flows from the tank, the pressure drops and, when it becomes less than the lower set level, according to the above algorithm, the electric motor of the submersible pump will turn on.

During operation, possible shorting of the control wires between the pressure gauge and the control device, as well as short circuits on the connecting terminals of these wires. When water hammer is possible, the clutch of the upper level contact and the arrow contact of the pressure gauge 30 is possible. In this case, the voltage from the emitter follower 17 through the upper level contact 29 is supplied to the input of the signal delay element 59. After a specified delay time, the voltage is supplied to the input of the upper level signal limiting element 57 and to the other the input of the logic element "And" 56. At the same time, a positive signal appears on the output of the logic element, which through the input resistor 55 enters the base of the transistor 53 of the third transistor amplifier solid, which leads to the opening of the transistor 53. In this case, the capacitor 52 is charged. The ratio of the voltages at the inputs (3) and (4) of the voltage comparator 32 will change, and it will turn on. At its output (9), a signal of positive polarity will appear, as LED 46 will signal. Diode 45 will open. The ratio of the output signal of the comparator 32 and the value of the output voltage of the resistor voltage divider 13 and 14 is such that at the input (3) of the comparator 9, the input voltage will exceed the input voltage at the input (4). The comparator 9 will turn off and a zero signal will be established at its output (9), which will turn off the transistor amplifier 24 of the winding 3 of the control relay. When the winding 3 of the control relay is disconnected, contact 4 (3) opens, while the coil 1 of the magnetic starter is disconnected from the network, its contacts 2 (1) open, and the electric pump 31 is disconnected from the network.

Thus, in the proposed device, in comparison with the prototype, with frequently repeated starts of the electric motor (for example, when the contacts are connected in the electrical contact pressure gauge, when the control wires or the connecting contacts are closed), the electric motor of the submersible pump is protected from overheating of the stator windings by often repeated starting currents. Thus, in the utility model, the technical problem has been solved to increase the reliability of the submersible pump electric motor.

Information sources

1. Patent for utility model No. 121403.

2. Rules for the technical operation of consumers' electrical installations, clause 2.5.12. Order of the Ministry of Energy of the Russian Federation dated January 13, 2003 No. 6 “On the Approval of the Rules for Technical Operation of Consumer Electrical Installations”.

3. Reference "Integrated circuits." M., "Radio and Communications", 1984, (pp. 463-465).

Claims (1)

A device for automatically controlling an electric motor of a submersible pump, comprising an electromagnetic starter, a control relay, the make contact of which is connected in series to the power supply circuit of the coil of the magnetic starter, and an electric contact pressure gauge, while the make contacts of the magnetic starter are connected in series between the terminals for connecting the network and the terminals for connecting the power of the submersible motor pump, power supply as part of a step-down voltage transformer, a half-wave diode in rectifier, capacitor, and the primary winding of the transformer is connected to the terminals for connecting the power source, and the secondary to the input of the diode half-wave rectifier, the output of which forms the output buses of the power supply to which the capacitor is connected; and also containing two voltage comparators with their input resistors, three resistor voltage dividers, a first resistor-transistor voltage divider, an emitter follower that are connected to the busbars of the power supply, two RC circuits, four decoupling diodes, a transistor protection diode, two transistor amplifiers , two rectifier diodes, two capacitors, a feedback resistor, a current-limiting resistor, an LED with its current-limiting resistor, three star-connected resistors that are connected to the terminals for connecting the network, while the output of the first resistor voltage divider through the first input resistor of the voltage comparator is connected to the first input of the first voltage comparator, and is also connected to the anode of the first and cathode of the second diode isolation circuits, each of which is connected to the contacts of the lower and upper pressure levels of the contact manometer, and the output of the second resistor voltage divider through the second input resistor of the voltage comparator is connected to the second input of the first comp voltage regulator and is connected to the first output of the feedback resistor of the first voltage comparator, the second output of this resistor is connected to the output of the first voltage comparator, to which the input resistor of the first transistor amplifier and the first conclusions of the resistors of two RC circuits are connected, the first of which contains an anode connected in series with the second terminal of the first resistor is a third diode, and the second terminal of the resistor of the second RC circuit is connected to the cathode of the third diode, as well as to the first lining of the first capacitor and the input of the emitter follower, and the second lining of this capacitor, common to both RC circuits, is connected to the first of the power supply buses, the control relay winding shunted by the transistor protection diode, the first output is connected to the cathode of this diode and the second power supply bus, and the second output the winding of the control relay is connected to the collector of the first transistor amplifier, the base of which is connected to the second output of the input resistor of this transistor amplifier and the first output of the bias resistor connected to the second output with by the emitter of the transistor and the first bus of the power supply unit, the output of the emitter follower is connected to the common contact of the pressure gauge, the artificial zero point of the star is connected through a current-limiting resistor to the common point of two rectifier diodes connected in series, while the cathode of the first diode is connected to the first bus of the power supply unit, which is connected to the input resistor of the second transistor amplifier, with the cathode of the LED and the first output of the second capacitor, the second output of which is connected to the anode w a rectifier diode and a bias resistor of the second transistor amplifier, and the transistor collector is connected to the second output of the resistor-transistor voltage divider resistor and is connected to its first input through the first input resistor of the second voltage comparator, and the output of the third voltage resistor divider through the second input resistor of the second voltage comparator connected to its second input, the output of this voltage comparator is connected through a current-limiting resistor to the anode of the LED and through The Fourth decoupling diode connected to the output of the first voltage divider resistor, the third capacitor which is connected parallel to the resistor of the first resistor-transistor voltage divider; characterized in that it additionally includes an integrated circuit power supply unit, a third transistor amplifier of a second resistor-transistor voltage divider, an AND element, two signal limiting elements and a high-level signal delay element connected as follows: integrated circuit circuit power supply connected to the output buses of the power supply unit of the control device, one output of the delay element of the signal of the upper level is connected to the upper level contact of the electrical contact man meter and the anode of the upper level diode, the second output of the upper level signal delay element is connected to the first output of the upper level signal restriction element, the second output of the upper level signal restriction element is connected to one input of the AND logic element, one output of the lower level signal restriction element is connected to the lower level contact of the electrical pressure gauge and the cathode of the lower level diode, the second output of the lower level signal limiting element is connected to another input of the AND gate, in the course of the logic element “And” is connected to the first output of the input resistor of the third transistor amplifier, the second output of the input resistor of the third transistor amplifier is connected to the base of the transistor of the same amplifier and to the first output of the bias resistor, the emitter of the transistor of the same amplifier is connected to the second output of the bias resistor and the first power bus of the control device, the collector of the transistor of the third transistor amplifier is connected to the collector of the transistor of the second transistor amplifier and with the second pin the resistor of the first resistor-transistor voltage divider, and through the first input resistor of the second voltage comparator is connected to its first input.

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